/// <summary> /// 设置字段实例 /// </summary> /// <param name="instance">对象实例</param> /// <param name="analyseResult">字段临时解析结构</param> /// <param name="data">元数据</param> /// <param name="offset">元数据偏移</param> /// <param name="length">元数据可用长度</param> public static void SetInstance(object instance, GetObjectAnalyseResult analyseResult, byte[] data, int offset, int length) { GetObjectAnalyseResult analyze = analyseResult; //热处理判断 if (analyze.HasCacheFinished) { analyze.CacheProcess(instance, analyseResult, data, offset, length); return; } #region 普通类型判断 IIntellectTypeProcessor intellectTypeProcessor = IntellectTypeProcessorMapping.Instance.GetProcessor(analyze.Attribute.Id) ?? IntellectTypeProcessorMapping.Instance.GetProcessor(analyze.Property.PropertyType); if (intellectTypeProcessor != null) { //添加热缓存 IIntellectTypeProcessor processor = intellectTypeProcessor; if (intellectTypeProcessor.SupportUnmanagement) { analyze.CacheProcess = processor.Process; } else { analyze.CacheProcess = delegate(object innerInstance, GetObjectAnalyseResult innerAnalyseResult, byte[] parameter, int position, int len) { processor.Process(analyze.Attribute, parameter); } }; analyze.CacheProcess(instance, analyseResult, data, offset, length); analyze.HasCacheFinished = true; return; } #endregion #region 枚举类型判断 //枚举类型 if (analyze.Property.PropertyType.GetTypeInfo().IsEnum) { Type enumType = Enum.GetUnderlyingType(analyze.Property.PropertyType); intellectTypeProcessor = IntellectTypeProcessorMapping.Instance.GetProcessor(enumType); if (intellectTypeProcessor == null) { throw new System.Exception("Cannot support this enum type! #type: " + analyze.Property.PropertyType); } //添加热处理 IIntellectTypeProcessor processor = intellectTypeProcessor; if (intellectTypeProcessor.SupportUnmanagement) { analyze.CacheProcess = processor.Process; } else { analyze.CacheProcess = delegate(object innerInstance, GetObjectAnalyseResult innerAnalyseResult, byte[] parameter, int position, int len) { processor.Process(analyze.Attribute, parameter); } }; analyze.CacheProcess(instance, analyseResult, data, offset, length); analyze.HasCacheFinished = true; return; } #endregion #region 可空类型判断 Type innerType; if ((innerType = Nullable.GetUnderlyingType(analyze.Property.PropertyType)) != null) { intellectTypeProcessor = IntellectTypeProcessorMapping.Instance.GetProcessor(innerType); if (intellectTypeProcessor != null) { //添加热缓存 IIntellectTypeProcessor processor = intellectTypeProcessor; if (intellectTypeProcessor.SupportUnmanagement) { analyze.CacheProcess = processor.Process; } else { analyze.CacheProcess = delegate(object innerInstance, GetObjectAnalyseResult innerAnalyseResult, byte[] parameter, int position, int len) { processor.Process(analyze.Attribute, parameter); } }; analyze.CacheProcess(instance, analyseResult, data, offset, length); analyze.HasCacheFinished = true; return; } throw new System.Exception("Cannot find compatible processor, #type: " + analyze.Property.PropertyType); } #endregion #region 智能类型的判断 //智能对象的判断 if (analyze.Property.PropertyType.GetTypeInfo().IsClass&& analyze.Property.PropertyType.GetTypeInfo().GetInterface(Consts.IntellectObjectFullName) != null) { //添加热缓存 analyze.CacheProcess = delegate(Object innerInstance, GetObjectAnalyseResult innerAnalyseResult, byte[] parameter, int position, int len) { innerAnalyseResult.SetValue(innerInstance, IntellectObjectEngine.GetObject <IntellectObject>(analyze.Property.PropertyType, parameter, position, len)); }; analyze.CacheProcess(instance, analyseResult, data, offset, length); analyze.HasCacheFinished = true; return; } #endregion #region 数组的判断 if (analyze.Property.PropertyType.IsArray) { Type elementType = analyze.Property.PropertyType.GetElementType(); VT vt = FixedTypeManager.IsVT(elementType); //VT type. if (vt != null) { #region VT type array processor. IIntellectTypeProcessor arrayProcessor = ArrayTypeProcessorMapping.Instance.GetProcessor(analyseResult.Property.PropertyType); //special optimize. if (arrayProcessor != null) { analyze.CacheProcess = arrayProcessor.Process; analyze.CacheProcess(instance, analyseResult, data, offset, length); } //normally process. else { throw new DefineNoMeaningException(string.Format(ExceptionMessage.EX_VT_FIND_NOT_PROCESSOR, analyze.Attribute.Id, analyze.Property.Name, analyze.Property.PropertyType)); } #endregion } else if (elementType.GetTypeInfo().IsSubclassOf(typeof(IntellectObject))) { #region IntellectObject type array processor. //add HOT cache. analyze.CacheProcess = delegate(Object innerInstance, GetObjectAnalyseResult innerAnalyseResult, byte[] parameter, int position, int len) { int innerOffset = position; int chunkSize = position + len; int arrLen = BitConverter.ToInt32(parameter, innerOffset); Func <int, IntellectObject[]> func = IntellectObjectArrayHelper.GetFunc <IntellectObject>(analyze.Property.PropertyType); if (arrLen == 0) { innerAnalyseResult.SetValue(innerInstance, func(0)); return; } innerOffset += 4; IntellectObject[] array = func(arrLen); int arrIndex = 0; short size; do { size = BitConverter.ToInt16(parameter, innerOffset); innerOffset += 2; if ((parameter.Length - innerOffset) < size) { throw new System.Exception("Illegal remaining binary data length!"); } //use unmanagement method by default. if (size == 0) { array[arrIndex] = null; } else { array[arrIndex] = IntellectObjectEngine.GetObject <IntellectObject>(elementType, parameter, innerOffset, size); } innerOffset += size; arrIndex++; } while (innerOffset < parameter.Length && innerOffset < chunkSize); innerAnalyseResult.SetValue(innerInstance, array); }; #endregion } else if (!(elementType == typeof(string)) && elementType.GetTypeInfo().IsSerializable) { throw new NotSupportedException(string.Format(ExceptionMessage.EX_NOT_SUPPORTED_VALUE, analyseResult.Attribute.Id, analyseResult.Property.Name, analyseResult.Property.PropertyType)); } else if (elementType == typeof(string)) { #region Any types if it can get the processor. intellectTypeProcessor = ArrayTypeProcessorMapping.Instance.GetProcessor(analyze.Property.PropertyType); if (intellectTypeProcessor == null) { throw new System.Exception("Cannot support this array element type processor! #type: " + elementType); } //Add hot cache. analyze.CacheProcess = intellectTypeProcessor.Process; #endregion } else { throw new NotSupportedException(string.Format(ExceptionMessage.EX_NOT_SUPPORTED_VALUE, analyseResult.Attribute.Id, analyseResult.Property.Name, analyseResult.Property.PropertyType)); } analyze.HasCacheFinished = true; analyze.CacheProcess(instance, analyseResult, data, offset, length); return; } #endregion throw new System.Exception("Cannot support this data type: " + analyze.Property.PropertyType); } #endregion } }
/// <summary> /// 设置字段实例 /// </summary> /// <param name="instance">对象实例</param> /// <param name="analyseResult">字段临时解析结构</param> /// <param name="container">网络数据容器</param> public static GetObjectResultTypes SetInstance(object instance, GetObjectAnalyseResult analyseResult, INetworkDataContainer container) { GetObjectAnalyseResult analyze = analyseResult; //热处理判断 if (analyze.HasCacheFinished) { return(analyze.CacheProcess(instance, analyseResult, container)); } #region 普通类型判断 IThriftTypeProcessor intellectTypeProcessor = ThriftTypeProcessorMapping.Instance.GetProcessor(analyze.Property.PropertyType); if (intellectTypeProcessor != null) { //添加热缓存 IThriftTypeProcessor processor = intellectTypeProcessor; analyze.CacheProcess = processor.Process; analyze.HasEnoughData = processor.HasEnoughData; analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container)); } #endregion #region 枚举类型判断 //枚举类型 if (analyze.Property.PropertyType.IsEnum) { Type enumType = Enum.GetUnderlyingType(analyze.Property.PropertyType); intellectTypeProcessor = ThriftTypeProcessorMapping.Instance.GetProcessor(enumType); if (intellectTypeProcessor == null) { throw new Exception("Cannot support this enum type! #type: " + analyze.Property.PropertyType); } //添加热处理 IThriftTypeProcessor processor = intellectTypeProcessor; analyze.CacheProcess = processor.Process; analyze.HasEnoughData = processor.HasEnoughData; analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container)); } #endregion #region 可空类型判断 Type innerType; if ((innerType = Nullable.GetUnderlyingType(analyze.Property.PropertyType)) != null) { intellectTypeProcessor = ThriftTypeProcessorMapping.Instance.GetProcessor(innerType); if (intellectTypeProcessor != null) { //添加热缓存 IThriftTypeProcessor processor = intellectTypeProcessor; analyze.CacheProcess = processor.Process; analyze.HasEnoughData = processor.HasEnoughData; analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container)); } throw new Exception("Cannot find compatible processor, #type: " + analyze.Property.PropertyType); } #endregion #region Thrift类型的判断 //Thrift对象的判断 if (analyze.Property.PropertyType.IsClass && analyze.Property.PropertyType.GetInterface(Consts.ThriftObjectFullName) != null) { //添加热缓存 analyze.CacheProcess = delegate(object innerInstance, GetObjectAnalyseResult innerAnalyseResult, INetworkDataContainer innerContainer) { GetObjectResultTypes r; ThriftObject tobj; if ((r = ThriftObjectEngine.TryGetObject(innerAnalyseResult.Property.PropertyType, innerContainer, out tobj, true)) != GetObjectResultTypes.Succeed) { return(r); } innerAnalyseResult.SetValue(innerInstance, tobj); return(GetObjectResultTypes.Succeed); }; analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container));; } #endregion #region 数组的判断 if (analyze.Property.PropertyType.IsArray) { Type elementType = analyze.Property.PropertyType.GetElementType(); intellectTypeProcessor = ArrayTypeProcessorMapping.Instance.GetProcessor(analyze.Property.PropertyType); if (intellectTypeProcessor != null) { //添加热缓存 IThriftTypeProcessor processor = intellectTypeProcessor; analyze.HasEnoughData = processor.HasEnoughData; analyze.CacheProcess = processor.Process; analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container)); } if (elementType.IsSubclassOf(typeof(ThriftObject))) { #region IntellectObject type array processor. //add HOT cache. analyze.CacheProcess = delegate(object innerInstance, GetObjectAnalyseResult innerAnalyseResult, INetworkDataContainer innerContainer) { if (!innerContainer.CheckEnoughSize(5)) { return(GetObjectResultTypes.NotEnoughData); } byte tmpData; int arrLen; if (!innerContainer.TryReadByte(out tmpData)) { return(GetObjectResultTypes.NotEnoughData); } PropertyTypes arrElementType = (PropertyTypes)tmpData; if (!innerContainer.TryReadInt32(out arrLen)) { return(GetObjectResultTypes.NotEnoughData); } arrLen = arrLen.ToLittleEndian(); Func <int, ThriftObject[]> func = ThriftObjectArrayHelper.GetFunc <ThriftObject>(analyze.Property.PropertyType); ThriftObject[] array = func(arrLen); for (int i = 0; i < arrLen; i++) { GetObjectResultTypes r; ThriftObject tobj; if ((r = ThriftObjectEngine.TryGetObject(innerAnalyseResult.Property.PropertyType.GetElementType(), innerContainer, out tobj, true)) != GetObjectResultTypes.Succeed) { return(r); } array[i] = tobj; } innerAnalyseResult.SetValue(innerInstance, array); return(GetObjectResultTypes.Succeed); }; #endregion } else { throw new NotSupportedException(string.Format(ExceptionMessage.EX_NOT_SUPPORTED_VALUE, analyseResult.Attribute.Id, analyseResult.Property.Name, analyseResult.Property.PropertyType)); } analyze.HasCacheFinished = true; return(analyze.CacheProcess(instance, analyseResult, container)); } #endregion throw new Exception("Cannot support this data type: " + analyze.Property.PropertyType); }